CN114501751A - Personal lighting system - Google Patents

Abstract

The invention relates to a personal lighting system. The intelligent mobile terminal in the system acquires timing data and lighting control data and sends the timing data and the lighting control data to the lighting lamp; the control circuit adjusts the time of the timing circuit to local standard time according to the timing data; the control circuit stores the lighting control data to the memory, the lighting control data comprises a corresponding relation between time in a natural day and a lighting instruction, and the lighting instruction enables light emitted by the lamp group to be consistent with a local natural light irradiation rule. The control circuit obtains real-time from the timing circuit, reads the illumination instruction corresponding to the real-time from the memory, and controls the lamp group to emit light according to the illumination instruction. The invention stores the lighting control data to the lighting lamp, thereby separating from the dependence on the server and improving the system stability.

Description

Personal lighting system

Technical Field

The present invention relates to the field of lighting, and more particularly to a personal lighting system.

Background

The artificial lighting means that a lamp is used for simulating natural light, so that people experience the change of the natural light indoors in one day, and the natural perception experience of people is improved. The artificial lighting can also be used in the field of animal breeding or plant planting, and can simulate a natural light environment for indoor animals and plants. The existing personal lighting system remotely and directly issues a control instruction to the lamp for the server, and the lighting system fails in places with poor network coverage or no network coverage, and is not stable enough and poor in user experience.

Disclosure of Invention

The invention aims to provide a personal lighting system.

The technical scheme adopted by the invention for solving the technical problems is as follows: the method comprises the steps that a human body lighting system is constructed, the human body lighting system comprises an intelligent mobile terminal and a lighting lamp, the intelligent mobile terminal comprises a first Bluetooth module, the lighting lamp comprises a control circuit, a second Bluetooth module, a timing circuit, a storage and a lamp set, the control circuit is respectively connected with the second Bluetooth module, the timing circuit, the storage and the lamp set, and the intelligent mobile terminal is in communication connection with the lighting lamp through the first Bluetooth module and the second Bluetooth module;

the intelligent mobile terminal acquires timing data and lighting control data and sends the timing data and the lighting control data to the lighting lamp; the control circuit adjusts the time of the timing circuit to local standard time according to the timing data; the control circuit stores the lighting control data to the memory, the lighting control data comprises a corresponding relation between time in a natural day and a lighting instruction, and the lighting instruction enables light emitted by the lamp group to be consistent with a local natural light irradiation rule;

the control circuit obtains real-time from the timing circuit, reads an illumination instruction corresponding to the real-time from the memory, and controls the lamp group to emit light according to the illumination instruction.

Further, in the personal lighting system of the present invention, the correspondence between the time in one natural day and the lighting instruction is a correspondence between each time period in one natural day and the lighting instruction, or a correspondence between each time point in one natural day and the lighting instruction.

Further, in the personal lighting system of the present invention, the acquiring, by the intelligent mobile terminal, the timing data includes: the intelligent mobile terminal obtains the local time and takes the local time as time correction data.

Further, in the personal lighting system of the present invention, the intelligent mobile terminal includes a first positioning module for acquiring the location information of the mobile terminal, and uploads the acquired location information of the mobile terminal to the time service server, so as to acquire the local standard time matched with the location information of the mobile terminal, and use the local standard time as the time calibration data.

Furthermore, the personal lighting system further comprises a cloud server, the intelligent mobile terminal is in communication connection with the cloud server, and the intelligent mobile terminal acquires lighting control data stored by the cloud server.

Furthermore, the personal lighting system also comprises a light ray collection terminal in communication connection with the cloud server, wherein the light ray collection terminal collects the corresponding relation between time and light ray parameters in a natural day and generates the lighting control data according to the corresponding relation between the time and the light ray parameters, and the light ray parameters comprise brightness parameters and color temperature parameters.

Further, in the personal lighting system of the present invention, the light collection terminal further includes a second positioning module for acquiring the position information of the collection terminal, the acquired position information of the collection terminal is uploaded to the cloud server, and the cloud server establishes a correspondence between the lighting control data and the position information of the collection terminal;

the intelligent mobile terminal comprises a first positioning module used for acquiring the position information of the mobile terminal, the acquired position information of the intelligent mobile terminal is uploaded to the cloud server, and the cloud server searches and issues the lighting control data corresponding to the position information of the mobile terminal to the intelligent mobile terminal.

Further, in the personal lighting system of the present invention, the intelligent mobile terminal includes an input device for inputting the lighting control data.

Further, in the personal lighting system of the present invention, the controlling circuit controlling the light set to emit light according to the lighting instruction includes: and the control circuit adjusts the brightness and the color temperature of the lamp group according to the illumination instruction.

Further, in the personal lighting system of the present invention, the intelligent mobile terminal is one of a smart phone, a tablet computer, or a notebook computer.

The human illumination system has the following beneficial effects: the invention stores the lighting control data to the lighting lamp, thereby separating from the dependence on a real-time network and improving the system stability.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a schematic structural diagram of a personal lighting system provided by an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a personal lighting system provided by an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a personal lighting system provided by an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a personal lighting system provided by an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a personal lighting system provided by an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a personal lighting system according to an embodiment of the present invention.

Detailed Description

For a more clear understanding of the technical features, objects, and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

In a preferred embodiment, referring to fig. 1, the personal lighting system of the present embodiment includes a smart mobile terminal 10 and a lighting fixture 20, and the smart mobile terminal 10 includes a first bluetooth module 101. Alternatively, the smart mobile terminal 10 includes, but is not limited to, a smart phone, a tablet computer, a notebook computer, or the like. The lighting fixture 20 includes a control circuit 201, a second bluetooth module 202, a timing circuit 203, a memory 204, and a lamp set 205, and the control circuit 201 is connected to the second bluetooth module 202, the timing circuit 203, the memory 204, and the lamp set 205, respectively. The intelligent mobile terminal 10 establishes a communication connection with the lighting fixture 20 through the first bluetooth module 101 and the second bluetooth module 202, that is, a bluetooth communication connection is established between the intelligent mobile terminal 10 and the lighting fixture 20, so that the intelligent mobile terminal 10 transmits data to the lighting fixture 20.

The intelligent mobile terminal 10 obtains the timing data and the lighting control data, and sends the timing data and the lighting control data to the lighting fixture 20, that is, the first bluetooth module 101 sends the timing data and the lighting control data to the second bluetooth module 202, and the second bluetooth module 202 transmits the timing data and the lighting control data to the control circuit 201. Alternatively, the smart mobile terminal 10 may first send the timing data to the lighting fixture 20 and then send the lighting control data to the lighting fixture 20. It is also possible to send the lighting control data to the lighting fixture 20 first and then send the timing data to the lighting fixture 20. The timing data and lighting control data may also be sent to the lighting fixture 20 at the same time.

The timing circuit 203 has a timing function for providing a time reference for the lighting fixture 20. However, since the timing circuit 203 is not networked, the time cannot be updated and calibrated, and the timing time may not be consistent with the local standard time. If the time provided by the timing circuit 203 is inconsistent with the local standard time, the light emitted by the lighting fixture 20 cannot be consistent with the local natural light irradiation law. In order to make the time provided by the timing circuit 203 consistent with the local standard time, the timing data includes the local standard time, the control circuit 201 adjusts the time of the timing circuit 203 to the local standard time according to the timing data, and the time calibration of the timing circuit 203 is completed. Alternatively, the timing circuit 203 may be integrated in the control circuit 201, for example, the control circuit 201 is a chip in which a timer is integrated.

The control circuit 201 stores lighting control data including a correspondence between time and lighting instruction in a natural day, which is 0 hour to 24 hours of a day, in the memory 204. Alternatively, the correspondence between the time of a natural day and the illumination instruction is the correspondence between each time period and the illumination instruction of a natural day, for example, one illumination instruction per hour of 24 hours of a natural day. Or, the corresponding relation between the time in a natural day and the illumination instruction is the corresponding relation between each time point in a natural day and the illumination instruction. It is understood that each illumination command corresponds to a brightness and color temperature, and that the changes in brightness and color temperature at different times during a natural day are associated with a plurality of illumination commands that cause the light emitted by the light bank 205 to conform to the local natural light illumination law.

When the lighting fixture 20 works in a natural day, the timing circuit 203 provides real-time, and the control circuit 201 acquires the real-time from the timing circuit 203. The control circuit 201 reads the illumination instruction corresponding to the real-time from the memory 204 according to the correspondence between the time and the illumination instruction, and the control circuit 201 controls the lamp group 205 to emit light according to the illumination instruction. It can be understood that the lighting instruction changes continuously with the change of time, so that the light emitted by the lamp group 205 is consistent with the local natural light irradiation rule, and the light simulation in a natural day is realized. Alternatively, the controlling circuit 201 controls the lamp set 205 to emit light according to the lighting instruction includes: the control circuit 201 adjusts the brightness and color temperature of the lamp set 205 according to the illumination instruction.

The embodiment stores the lighting control data to the lighting lamp, so that the dependence on a real-time network is separated, and the system stability is improved.

In the personal lighting system of some embodiments, on the premise that the local time of the smart mobile terminal is the local standard time, the acquiring, by the smart mobile terminal 10, the timing data includes: the intelligent mobile terminal 10 acquires the local time, and uses the local time as timing data. In the embodiment, the time of using the intelligent mobile terminal 10 is the local standard time, and the time calibration of the lighting fixture 20 can be realized in a network-free environment, so that the dependence of the lighting fixture 20 on the network is reduced.

In the personal lighting system of some embodiments, referring to fig. 2, the smart mobile terminal 10 includes a first positioning module 102 for obtaining the location information of the smart mobile terminal, and the smart mobile terminal 10 is communicatively connected to a time service server for providing a local standard time service. The intelligent mobile terminal 10 uploads the acquired mobile terminal position information to the time service server, and the time service server searches the corresponding relation between the position and the local standard time according to the mobile terminal position information to obtain the local standard time corresponding to the mobile terminal position information. Further, the smart mobile terminal 10 acquires the local standard time matched with the mobile terminal location information, and takes the local standard time as the timing data. Alternatively, the first positioning module 102 may be a beidou positioning module, a GPS positioning module, a base station positioning module, or the like. According to the embodiment, the local standard time is acquired through the time service server under the condition of network support, and the accuracy of the local standard time provided by the time correction data is ensured.

In some embodiments of the personal lighting system, referring to fig. 3, the personal lighting system further includes a cloud server 30, and the smart mobile terminal 10 is in communication connection with the cloud server 30. The cloud server 30 stores the lighting control data, and the smart mobile terminal 10 acquires the lighting control data stored in the cloud server 30. The embodiment stores the lighting control data in the server, accesses the cloud server 30 through the smart mobile terminal 10 to obtain the lighting control data, and then sends the lighting control data to the lighting fixture 20.

In the personal lighting system of some embodiments, referring to fig. 4, the personal lighting system of this embodiment further includes a light collection terminal 40 in communication connection with the cloud server 30, where the light collection terminal 40 includes a light intensity sensor and a color temperature sensor, the light intensity sensor is configured to collect a relationship between time and light intensity in a natural day, and the color temperature sensor is configured to collect a relationship between time and color temperature in a natural day. The light collection terminal 40 generates a correspondence between time in a natural day and light parameters including a luminance parameter and a color temperature parameter according to a relationship between time in a natural day and light intensity and a relationship between time and color temperature, and then generates illumination control data according to the correspondence between time and light parameters. The present embodiment uses the sensor to collect real variation data of light intensity and color temperature in a natural day, so that the lighting control data is consistent with real illumination, ensuring accurate lighting control data for the lighting fixture 20.

In the personal lighting system of some embodiments, referring to fig. 5, the light collection terminal 40 further includes a second positioning module 401 for acquiring the position information of the collection terminal, and uploads the acquired position information of the collection terminal to the cloud server 30, and the cloud server 30 establishes a corresponding relationship between the lighting control data and the position information of the collection terminal. Alternatively, the second positioning module 401 may be a beidou positioning module, a GPS positioning module, a base station positioning module, or the like. It can be understood that the sunrise and sunset times of different time zones are different, the illumination time of a natural day is also different, and the corresponding lighting control data is naturally different, so that the lighting control data corresponding to different areas is stored in the cloud server 30. Further, the intelligent mobile terminal 10 includes a first positioning module 102 for acquiring the position information of the mobile terminal, the acquired position information of the intelligent mobile terminal 10 is uploaded to the cloud server 30, the cloud server 30 searches for the lighting control data corresponding to the position information of the mobile terminal, and sends the lighting control data to the intelligent mobile terminal 10. In this embodiment, the cloud server 30 stores lighting control data corresponding to different regions, and the lighting fixtures 20 in different regions use lighting data corresponding to a local region, so that the light emitted by the lighting fixtures 20 is consistent with the law of natural light in the local region.

In the personal lighting system of some embodiments, referring to fig. 6, the smart mobile terminal 10 includes an input device 103 for inputting lighting control data, and a user may input the lighting control data through the input device 103. That is, the user inputs the correspondence between each time period and the illumination instruction in one natural day, for example, one illumination instruction per hour in 24 hours in one natural day, using the input device 103. Alternatively, the user inputs the correspondence between each time point in a natural day and the illumination instruction using the input device 103. The embodiment allows a user to set the lighting control data according to the requirement, and can meet the personalized requirement of the user on the basis of realizing natural light simulation.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, in a software module executed by a processor, or in a combination of the two. A software module may reside in random access memory (204) (RAM), memory, read only memory (204) (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, removable disk, CD-ROM, or any other form of storage medium known in the art.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. The personal lighting system is characterized by comprising an intelligent mobile terminal (10) and a lighting lamp (20), wherein the intelligent mobile terminal (10) comprises a first Bluetooth module (101), the lighting lamp (20) comprises a control circuit (201), a second Bluetooth module (202), a timing circuit (203), a memory (204) and a lamp set (205), the control circuit (201) is respectively connected with the second Bluetooth module (202), the timing circuit (203), the memory (204) and the lamp set (205), and the intelligent mobile terminal (10) is in communication connection with the lighting lamp (20) through the first Bluetooth module (101) and the second Bluetooth module (202);

the intelligent mobile terminal (10) acquires timing data and lighting control data and sends the timing data and the lighting control data to the lighting lamp (20); the control circuit (201) adjusts the time of the timing circuit (203) to local standard time according to the timing data; the control circuit (201) stores the lighting control data to the memory (204), the lighting control data comprises a corresponding relation between the time in a natural day and a lighting instruction, and the lighting instruction enables the light emitted by the lamp group (205) to be consistent with the local natural light irradiation rule;

the control circuit (201) acquires real-time from the timing circuit (203), the control circuit (201) reads a lighting instruction corresponding to the real-time from the memory (204), and the control circuit (201) controls the lamp group (205) to emit light according to the lighting instruction.

2. The personal lighting system according to claim 1, wherein the correspondence between the time and the lighting instruction in one natural day is a correspondence between each time period and the lighting instruction in one natural day, or a correspondence between each time point and the lighting instruction in one natural day.

3. The personal lighting system of claim 1, wherein the smart mobile terminal (10) obtaining timing data comprises: the intelligent mobile terminal (10) acquires the local time, and the local time is used as time correction data.

4. The personal lighting system according to claim 1, wherein the intelligent mobile terminal (10) comprises a first positioning module (102) for acquiring mobile terminal position information, the acquired mobile terminal position information is uploaded to a time service server, local standard time matched with the mobile terminal position information is acquired, and the local standard time is used as time correction data.

5. The personal lighting system according to claim 1, further comprising a cloud server (30), wherein the smart mobile terminal (10) is communicatively connected to the cloud server (30), and wherein the smart mobile terminal (10) acquires the lighting control data stored in the cloud server (30).

6. The personal lighting system according to claim 5, further comprising a light collection terminal (40) communicatively connected to the cloud server (30), wherein the light collection terminal (40) collects a correspondence between a time and a light parameter in a natural day, and generates the lighting control data according to the correspondence between the time and the light parameter, wherein the light parameter includes a brightness parameter and a color temperature parameter.

7. The personal lighting system according to claim 6, wherein the light collection terminal (40) further comprises a second positioning module (401) for acquiring collection terminal position information, the acquired collection terminal position information is uploaded to the cloud server (30), and the cloud server (30) establishes a corresponding relationship between the lighting control data and the collection terminal position information;

the intelligent mobile terminal (10) comprises a first positioning module (102) used for acquiring the position information of the mobile terminal, the acquired position information of the intelligent mobile terminal (10) is uploaded to the cloud server (30), and the cloud server (30) searches and issues the lighting control data corresponding to the position information of the mobile terminal to the intelligent mobile terminal (10).

8. The personal lighting system according to claim 1, wherein the smart mobile terminal (10) comprises an input device (103) for inputting the lighting control data.

9. The personal lighting system of claim 1, wherein the control circuit (201) controls the light group (205) to emit light according to the lighting instruction comprises: the control circuit (201) adjusts the brightness and color temperature of the lamp set (205) according to the illumination instruction.

10. The personal lighting system according to claim 1, wherein the smart mobile terminal (10) is one of a smartphone, a tablet computer or a laptop computer.

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